Data arrangement for liquid crystal display device
Abstract
A liquid crystal display (LCD) interface that includes a plurality of first transmission lines including N sets of transmission lines, each set of the first transmission lines being associated with a pixel formed in the LCD device, and a plurality of second transmission lines, each being coupled to one the plurality of first transmission lines, the plurality of second transmission lines including a plurality of sets, alternating in odd-numbered and even-numbered sets, each set of the second transmission lines corresponding to the plurality of first transmission lines, and each set including a plurality of subsets, each being associated with a pixel formed in the LCD device, wherein an M-th subset of each of the odd-numbered sets of the second transmission lines is coupled to an M-th set of the first transmission lines, and an M-th subset of each of the even-numbered sets of the second transmission lines is coupled to an (N−M+1)-th set of the first transmission lines, M being an integral between 1 and N.
Claims
exact text as granted — not AI-modified1. A liquid crystal display (LCD) interface, comprising:
a plurality of first transmission lines; and
a plurality of second transmission lines, each being coupled to one of the plurality of first transmission lines,
wherein the plurality of second transmission lines includes a plurality of sets, alternating in odd-numbered and even-numbered sets, each set of the second transmission lines corresponding to the plurality of first transmission lines, and including a plurality of subsets, each subset including a first line for a first color region, a second line for a second color region, and a third line for a third color region of a pixel formed in the LCD panel, and
wherein the plurality of first transmission lines includes a plurality of sets, each set of first transmission line including a first line for a first color region, a second line for a second color region, and a third line for a third color region of a pixel, such that a first set of first transmission lines is coupled to a first subset of each of the odd-numbered sets of the second transmission lines and a final subset of each of the even-numbered sets of the second transmission lines.
2. The interface of claim 1 , wherein a second set of the first transmission lines is coupled to a second subset of each of the odd-numbered sets of the second transmission lines and a penult subset of each of the even-numbered sets of the second transmission lines.
3. The interface of claim 1 , wherein the plurality of first transmission lines include N sets of transmission lines such that an M-th subset of each of the odd-numbered sets of the second transmission lines is coupled to an M-th set of the first transmission lines, M being an integral between 1 and N.
4. The interface of claim 1 , wherein the plurality of first transmission lines include N sets of transmission lines such that an M-th subset of each of the even-numbered sets of the second transmission lines is coupled to an (N−M+1)-th set of the first transmission lines, M being an integral between 1 and N.
5. The interface of claim 1 , wherein the first color region is a red sub-pixel region.
6. The interface of claim 1 , wherein the second color region is a green sub-pixel region.
7. The interface of claim 1 , wherein the third color region is a blue sub-pixel region.
8. The interface of claim 1 , further comprising a switch disposed on each second transmission line.
9. A liquid crystal display (LCD) interface, comprising:
a plurality of first transmission lines including N sets of transmission lines, each set of the first transmission lines being associated with a pixel formed in the LCD device; and
a plurality of second transmission lines, each being coupled to one the plurality of first transmission lines, the plurality of second transmission lines including a plurality of sets, alternating in odd-numbered and even-numbered sets, each set of the second transmission lines corresponding to the plurality of first transmission lines, and each set including a plurality of subsets, each being associated with a pixel formed in the LCD device,
wherein an M-th subset of each of the odd-numbered sets of the second transmission lines is coupled to an M-th set of the first transmission lines, and an M-th subset of each of the even-numbered sets of the second transmission lines is coupled to an (N−M+1)-th set of the first transmission lines, M being an integral between 1 and N.
10. The interface of claim 9 , wherein the first transmission lines include 12 transmission lines and N is equal to 4.
11. The interface of claim 9 , wherein the first transmission lines include 24 transmission lines and N is equal to 8.
12. The interface of claim 9 , wherein the first transmission lines include 48 transmission lines and N is equal to 16.
13. A method of providing data to a liquid crystal display (LCD) device, comprising:
providing a plurality of sets of first transmission lines;
providing a plurality of sets of second transmission lines alternating in odd-numbered and even-numbered sets;
coupling each of the second transmission lines to one of the plurality of first transmission lines such that each set of second transmission lines corresponds to the plurality of first transmission lines;
providing a plurality of subsets for each set of the second transmission lines, each subset being associated with a pixel formed in the LCD device;
coupling an M-th subset of each of the odd-numbered sets of the second transmission lines to an M-th set of the first transmission lines, M being an integral between 1 and N;
coupling an M-th subset of each of the even-numbered sets of the second transmission lines to an (N−M+1)-th set of the first transmission lines;
providing a first set of data from the plurality of first transmission lines to the odd-numbered sets of the second transmission lines; and
following the first set of data, providing a second set of data from the plurality of first transmission lines to the even-numbered sets of the second transmission lines.
14. The method of claim 13 , further comprising providing an odd-numbered set of data from the plurality of first transmission lines to the odd-numbered sets of the second transmission lines.
15. The method of claim 13 , further comprising providing an even-numbered set of data from the plurality of first transmission lines to the even-numbered sets of the second transmission lines.
16. The method of claim 13 , further comprising providing each set of the first transmission lines with a first line for a first color region, a second line for a second color region, and a third line for a third color region of a pixel formed in the LCD device.
17. The method of claim 13 , further comprising providing each subset of the second transmission lines with a first line for a first color region, a second line for a second color region, and a third line for a third color region of a pixel formed in the LCD device.
18. The method of claim 13 , further comprising providing a switch on each second transmission line.Cited by (0)
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